2020
DOI: 10.1039/d0nr07015g
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Spin-wave spectroscopy of individual ferromagnetic nanodisks

Abstract: An original spatially resolved approach is demonstrated for spin-wave spectroscopy of individual circular magnetic elements. It allows for the deduction of the saturation magnetization and the exchange stiffness of the material with high precision.

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Cited by 37 publications
(28 citation statements)
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“…34,35 Given FEBID's lateral resolution down to 10 nm and its versatility regarding the substrate material, FEBID appears as a promising nanofabrication technology for 3D magnonics. 36 Here, we investigate the spin-wave eigenmodes in individual direct-write Co-Fe nanovolcanoes by spin-wave resonance (SWR) spectroscopy 37,38 and analyze the experimental data with the aid of micromagnetic simulations. We reveal that the microwave response of the nanovolcanoes essentially differs from the sum of the microwave responses of their constituent 2D elements-nanorings and nanodisks.…”
mentioning
confidence: 99%
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“…34,35 Given FEBID's lateral resolution down to 10 nm and its versatility regarding the substrate material, FEBID appears as a promising nanofabrication technology for 3D magnonics. 36 Here, we investigate the spin-wave eigenmodes in individual direct-write Co-Fe nanovolcanoes by spin-wave resonance (SWR) spectroscopy 37,38 and analyze the experimental data with the aid of micromagnetic simulations. We reveal that the microwave response of the nanovolcanoes essentially differs from the sum of the microwave responses of their constituent 2D elements-nanorings and nanodisks.…”
mentioning
confidence: 99%
“…M s and A values correspond to those for equivalent diameter Co-Fe nanodisks. 37 The frequencies of the modes D1-D3, R1, and R2 are calculated at 1.7 T for NV1000/700 and NV600/400 and at 1.2 T for all other samples. Upper part: Nanovolcanoes studied experimentally and by micromagnetic simulations.…”
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confidence: 99%
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“…The ‘dead’ magnetic layer associated with native surface oxide and crystallite boundaries in nanostructured films were not considered in the calculations because the estimation of their actual ratio is speculative. Second, only the 1st order standing spin wave was observed in the experiment leading to limitations in applicability of the Equation (3) [ 47 ].…”
Section: Resultsmentioning
confidence: 99%
“…Covering a wide frequency range from sub-GHz to tens of THz and being free from the translational motion of electrons and the associated Joule heat, spin waves possess great potential for realizing novel, highly efficient wave-based computing concepts [ 139 ]. In this regard, FEBID, whose potential for magnonic applications has been demonstrated in a few proof-of-concept experiments [ 71 , 140 , 141 ], can offer unique features which go beyond the rich instrumentation of traditional fabrication techniques employed in magnonics.…”
Section: Febid Nanostructures For 3d Nanomagnetismmentioning
confidence: 99%